/* ****************************************************************************** * * Copyright (C) 2008-2009, International Business Machines * Corporation and others. All Rights Reserved. * ****************************************************************************** * file name: uspoof_wsconf.cpp * encoding: US-ASCII * tab size: 8 (not used) * indentation:4 * * created on: 2009Jan05 (refactoring earlier files) * created by: Andy Heninger * * Internal functions for compililing Whole Script confusable source data * into its binary (runtime) form. The binary data format is described * in uspoof_impl.h */ #include "unicode/utypes.h" #include "unicode/uspoof.h" #if !UCONFIG_NO_NORMALIZATION #if !UCONFIG_NO_REGULAR_EXPRESSIONS #include "unicode/unorm.h" #include "unicode/uregex.h" #include "unicode/ustring.h" #include "cmemory.h" #include "uspoof_impl.h" #include "uhash.h" #include "uvector.h" #include "uassert.h" #include "uspoof_wsconf.h" U_NAMESPACE_USE // Regular expression for parsing a line from the Unicode file confusablesWholeScript.txt // Example Lines: // 006F ; Latn; Deva; A # (o) LATIN SMALL LETTER O // 0048..0049 ; Latn; Grek; A # [2] (H..I) LATIN CAPITAL LETTER H..LATIN CAPITAL LETTER I // | | | | // | | | |---- Which table, Any Case or Lower Case (A or L) // | | |----------Target script. We need this. // | |----------------Src script. Should match the script of the source // | code points. Beyond checking that, we don't keep it. // |--------------------------------Source code points or range. // // The expression will match _all_ lines, including erroneous lines. // The result of the parse is returned via the contents of the (match) groups. static const char *parseExp = "(?m)" // Multi-line mode "^([ \\t]*(?:#.*?)?)$" // A blank or comment line. Matches Group 1. "|^(?:" // OR "\\s*([0-9A-F]{4,})(?:..([0-9A-F]{4,}))?\\s*;" // Code point range. Groups 2 and 3. "\\s*([A-Za-z]+)\\s*;" // The source script. Group 4. "\\s*([A-Za-z]+)\\s*;" // The target script. Group 5. "\\s*(?:(A)|(L))" // The table A or L. Group 6 or 7 "[ \\t]*(?:#.*?)?" // Trailing commment ")$|" // OR "^(.*?)$"; // An error line. Group 8. // Any line not matching the preceding // parts of the expression.will match // this, and thus be flagged as an error // Extract a regular expression match group into a char * string. // The group must contain only invariant characters. // Used for script names // static void extractGroup( URegularExpression *e, int32_t group, char *destBuf, int32_t destCapacity, UErrorCode &status) { UChar ubuf[50]; ubuf[0] = 0; destBuf[0] = 0; int32_t len = uregex_group(e, group, ubuf, 50, &status); if (U_FAILURE(status) || len == -1 || len >= destCapacity) { return; } UnicodeString s(FALSE, ubuf, len); // Aliasing constructor s.extract(0, len, destBuf, destCapacity, US_INV); } // Build the Whole Script Confusable data // // TODO: Reorganize. Either get rid of the WSConfusableDataBuilder class, // because everything is local to this one build function anyhow, // OR // break this function into more reasonably sized pieces, with // state in WSConfusableDataBuilder. // void buildWSConfusableData(SpoofImpl *spImpl, const char * confusablesWS, int32_t confusablesWSLen, UParseError *pe, UErrorCode &status) { if (U_FAILURE(status)) { return; } URegularExpression *parseRegexp = NULL; int32_t inputLen = 0; UChar *input = NULL; int32_t lineNum = 0; UVector *scriptSets = NULL; uint32_t rtScriptSetsCount = 2; UTrie2 *anyCaseTrie = NULL; UTrie2 *lowerCaseTrie = NULL; anyCaseTrie = utrie2_open(0, 0, &status); lowerCaseTrie = utrie2_open(0, 0, &status); // The scriptSets vector provides a mapping from TRIE values to the set of scripts. // // Reserved TRIE values: // 0: Code point has no whole script confusables. // 1: Code point is of script Common or Inherited. // These code points do not participate in whole script confusable detection. // (This is logically equivalent to saying that they contain confusables in // all scripts) // // Because Trie values are indexes into the ScriptSets vector, pre-fill // vector positions 0 and 1 to avoid conflicts with the reserved values. scriptSets = new UVector(status); if (scriptSets == NULL) { status = U_MEMORY_ALLOCATION_ERROR; goto cleanup; } scriptSets->addElement((void *)NULL, status); scriptSets->addElement((void *)NULL, status); // Convert the user input data from UTF-8 to UChar (UTF-16) u_strFromUTF8(NULL, 0, &inputLen, confusablesWS, confusablesWSLen, &status); if (status != U_BUFFER_OVERFLOW_ERROR) { goto cleanup; } status = U_ZERO_ERROR; input = static_cast(uprv_malloc((inputLen+1) * sizeof(UChar))); if (input == NULL) { status = U_MEMORY_ALLOCATION_ERROR; goto cleanup; } u_strFromUTF8(input, inputLen+1, NULL, confusablesWS, confusablesWSLen, &status); parseRegexp = uregex_openC(parseExp, 0, NULL, &status); // Zap any Byte Order Mark at the start of input. Changing it to a space is benign // given the syntax of the input. if (*input == 0xfeff) { *input = 0x20; } // Parse the input, one line per iteration of this loop. uregex_setText(parseRegexp, input, inputLen, &status); while (uregex_findNext(parseRegexp, &status)) { lineNum++; UChar line[200]; uregex_group(parseRegexp, 0, line, 200, &status); if (uregex_start(parseRegexp, 1, &status) >= 0) { // this was a blank or comment line. continue; } if (uregex_start(parseRegexp, 8, &status) >= 0) { // input file syntax error. status = U_PARSE_ERROR; goto cleanup; } if (U_FAILURE(status)) { goto cleanup; } // Pick up the start and optional range end code points from the parsed line. UChar32 startCodePoint = SpoofImpl::ScanHex( input, uregex_start(parseRegexp, 2, &status), uregex_end(parseRegexp, 2, &status), status); UChar32 endCodePoint = startCodePoint; if (uregex_start(parseRegexp, 3, &status) >=0) { endCodePoint = SpoofImpl::ScanHex( input, uregex_start(parseRegexp, 3, &status), uregex_end(parseRegexp, 3, &status), status); } // Extract the two script names from the source line. We need these in an 8 bit // default encoding (will be EBCDIC on IBM mainframes) in order to pass them on // to the ICU u_getPropertyValueEnum() function. Ugh. char srcScriptName[20]; char targScriptName[20]; extractGroup(parseRegexp, 4, srcScriptName, sizeof(srcScriptName), status); extractGroup(parseRegexp, 5, targScriptName, sizeof(targScriptName), status); UScriptCode srcScript = static_cast(u_getPropertyValueEnum(UCHAR_SCRIPT, srcScriptName)); UScriptCode targScript = static_cast(u_getPropertyValueEnum(UCHAR_SCRIPT, targScriptName)); if (U_FAILURE(status)) { goto cleanup; } if (srcScript == USCRIPT_INVALID_CODE || targScript == USCRIPT_INVALID_CODE) { status = U_INVALID_FORMAT_ERROR; goto cleanup; } // select the table - (A) any case or (L) lower case only UTrie2 *table = anyCaseTrie; if (uregex_start(parseRegexp, 7, &status) >= 0) { table = lowerCaseTrie; } // Build the set of scripts containing confusable characters for // the code point(s) specified in this input line. // Sanity check that the script of the source code point is the same // as the source script indicated in the input file. Failure of this check is // an error in the input file. // Include the source script in the set (needed for Mixed Script Confusable detection). // UChar32 cp; for (cp=startCodePoint; cp<=endCodePoint; cp++) { int32_t setIndex = utrie2_get32(table, cp); BuilderScriptSet *bsset = NULL; if (setIndex > 0) { U_ASSERT(setIndex < scriptSets->size()); bsset = static_cast(scriptSets->elementAt(setIndex)); } else { bsset = new BuilderScriptSet(); if (bsset == NULL) { status = U_MEMORY_ALLOCATION_ERROR; goto cleanup; } bsset->codePoint = cp; bsset->trie = table; bsset->sset = new ScriptSet(); setIndex = scriptSets->size(); bsset->index = setIndex; bsset->rindex = 0; if (bsset->sset == NULL) { status = U_MEMORY_ALLOCATION_ERROR; goto cleanup; } scriptSets->addElement(bsset, status); utrie2_set32(table, cp, setIndex, &status); } bsset->sset->Union(targScript); bsset->sset->Union(srcScript); if (U_FAILURE(status)) { goto cleanup; } UScriptCode cpScript = uscript_getScript(cp, &status); if (cpScript != srcScript) { status = U_INVALID_FORMAT_ERROR; goto cleanup; } } } // Eliminate duplicate script sets. At this point we have a separate // script set for every code point that had data in the input file. // // We eliminate underlying ScriptSet objects, not the BuildScriptSets that wrap them // // printf("Number of scriptSets: %d\n", scriptSets->size()); { int32_t duplicateCount = 0; rtScriptSetsCount = 2; for (int32_t outeri=2; outerisize(); outeri++) { BuilderScriptSet *outerSet = static_cast(scriptSets->elementAt(outeri)); if (outerSet->index != static_cast(outeri)) { // This set was already identified as a duplicate. // It will not be allocated a position in the runtime array of ScriptSets. continue; } outerSet->rindex = rtScriptSetsCount++; for (int32_t inneri=outeri+1; innerisize(); inneri++) { BuilderScriptSet *innerSet = static_cast(scriptSets->elementAt(inneri)); if (*(outerSet->sset) == *(innerSet->sset) && outerSet->sset != innerSet->sset) { delete innerSet->sset; innerSet->scriptSetOwned = FALSE; innerSet->sset = outerSet->sset; innerSet->index = outeri; innerSet->rindex = outerSet->rindex; duplicateCount++; } // But this doesn't get all. We need to fix the TRIE. } } // printf("Number of distinct script sets: %d\n", rtScriptSetsCount); } // Update the Trie values to be reflect the run time script indexes (after duplicate merging). // (Trie Values 0 and 1 are reserved, and the corresponding slots in scriptSets // are unused, which is why the loop index starts at 2.) { for (int32_t i=2; isize(); i++) { BuilderScriptSet *bSet = static_cast(scriptSets->elementAt(i)); if (bSet->rindex != (uint32_t)i) { utrie2_set32(bSet->trie, bSet->codePoint, bSet->rindex, &status); } } } // For code points with script==Common or script==Inherited, // Set the reserved value of 1 into both Tries. These characters do not participate // in Whole Script Confusable detection; this reserved value is the means // by which they are detected. { UnicodeSet ignoreSet; ignoreSet.applyIntPropertyValue(UCHAR_SCRIPT, USCRIPT_COMMON, status); UnicodeSet inheritedSet; inheritedSet.applyIntPropertyValue(UCHAR_SCRIPT, USCRIPT_INHERITED, status); ignoreSet.addAll(inheritedSet); for (int32_t rn=0; rnfSpoofData->fRawData->fAnyCaseTrie = spImpl->fSpoofData->fMemLimit; spImpl->fSpoofData->fRawData->fAnyCaseTrieLength = size; spImpl->fSpoofData->fAnyCaseTrie = anyCaseTrie; void *where = spImpl->fSpoofData->reserveSpace(size, status); utrie2_serialize(anyCaseTrie, where, size, &status); utrie2_freeze(lowerCaseTrie, UTRIE2_16_VALUE_BITS, &status); size = utrie2_serialize(lowerCaseTrie, NULL, 0, &status); // printf("Lower case Trie size: %d\n", size); if (status != U_BUFFER_OVERFLOW_ERROR) { goto cleanup; } status = U_ZERO_ERROR; spImpl->fSpoofData->fRawData->fLowerCaseTrie = spImpl->fSpoofData->fMemLimit; spImpl->fSpoofData->fRawData->fLowerCaseTrieLength = size; spImpl->fSpoofData->fLowerCaseTrie = lowerCaseTrie; where = spImpl->fSpoofData->reserveSpace(size, status); utrie2_serialize(lowerCaseTrie, where, size, &status); spImpl->fSpoofData->fRawData->fScriptSets = spImpl->fSpoofData->fMemLimit; spImpl->fSpoofData->fRawData->fScriptSetsLength = rtScriptSetsCount; ScriptSet *rtScriptSets = static_cast (spImpl->fSpoofData->reserveSpace(rtScriptSetsCount * sizeof(ScriptSet), status)); uint32_t rindex = 2; for (int32_t i=2; isize(); i++) { BuilderScriptSet *bSet = static_cast(scriptSets->elementAt(i)); if (bSet->rindex < rindex) { // We have already copied this script set to the serialized data. continue; } U_ASSERT(rindex == bSet->rindex); rtScriptSets[rindex] = *bSet->sset; // Assignment of a ScriptSet just copies the bits. rindex++; } } // Open new utrie2s from the serialized data. We don't want to keep the ones // we just built because we would then have two copies of the data, one internal to // the utries that we have already constructed, and one in the serialized data area. // An alternative would be to not pre-serialize the Trie data, but that makes the // spoof detector data different, depending on how the detector was constructed. // It's simpler to keep the data always the same. spImpl->fSpoofData->fAnyCaseTrie = utrie2_openFromSerialized( UTRIE2_16_VALUE_BITS, (const char *)spImpl->fSpoofData->fRawData + spImpl->fSpoofData->fRawData->fAnyCaseTrie, spImpl->fSpoofData->fRawData->fAnyCaseTrieLength, NULL, &status); spImpl->fSpoofData->fLowerCaseTrie = utrie2_openFromSerialized( UTRIE2_16_VALUE_BITS, (const char *)spImpl->fSpoofData->fRawData + spImpl->fSpoofData->fRawData->fLowerCaseTrie, spImpl->fSpoofData->fRawData->fAnyCaseTrieLength, NULL, &status); cleanup: if (U_FAILURE(status)) { pe->line = lineNum; } uregex_close(parseRegexp); uprv_free(input); int32_t i; for (i=0; isize(); i++) { BuilderScriptSet *bsset = static_cast(scriptSets->elementAt(i)); delete bsset; } delete scriptSets; utrie2_close(anyCaseTrie); utrie2_close(lowerCaseTrie); return; } BuilderScriptSet::BuilderScriptSet() { codePoint = -1; trie = NULL; sset = NULL; index = 0; rindex = 0; scriptSetOwned = TRUE; } BuilderScriptSet::~BuilderScriptSet() { if (scriptSetOwned) { delete sset; } } #endif #endif // !UCONFIG_NO_REGULAR_EXPRESSIONS